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Characteristic Analysis of Texture and Structure of Ores and genesis of Luziyuan Pb-Zn Polimetallic Deposit in Zhenkang, Yunnan, China Binxia Lin 1,a, Mingguo Deng 1,b, Xuwen Liang 1,c 1,2,3.Faculty of Land and Resource Engineering, Kunming University of Science and Technology, Yunnan, China.
The initial rock forming minerals which form the initial source bed mainly refer to calcite, dolomite and the deposit sediment of basic volcanic material and metal sulfide deposits.
This phase formed by metasomatism in the sedimentary diagenetic period bedded ore body occurred in situ, because of the addition of new material late, ore material composition change, but the bedded ore body shape remains the same, roughly formation dissolution metasomatism and metasomatic residual structure.
The stage is influenced by regional tectonic movement.The tectonic activity provides a favorable fluid channel for ore-forming, while it make material exchange between surrounding rock and ore-forming fluid[3,6].
Earth Science-Journal of China University of Geosciences, in China. 2005, 30(2):177-186

References [1] Masato Enokizono, Construction of Development Technology of Next Generation Applied Electromagnetic Machinery in Japan, Materials Science Forum, Vol.670 (2010), pp.51-59 [2] Yohji Okada, Hidetoshi Miyazawa, Ryou Kondo, Masato Enokizono, Proposal of Flux Concentrated Radial and Axial Magnetic Bearings, Materials Science Forum, Vol.670 (2010), pp.435-446 [3] A.
Nor Aziz, et al., Development of Magnetic Gear Device: Design and Performance Test for Cylindrical Magnetic Gear, Journal of JSAEM vol.18, NO.3 (2010), pp.257-262, (in Japanese) [10] Y.

The Effects of ligustrazine on the Expression of Bax protein and Cytochrome C Following Focal Cerebral Ischemia/Reperfusion Injury in Rats Qiuzhen Zhao1, a, Hua Liu2,b and Huaguang Li 3,c 1Office of Students Affairs, Hebei North University; Zhangjiakou, Hebei Province, 075000, China 2 Life Science Research Center, Hebei North University; Zhangjiakou, Hebei Province, 075000, China 3 Department of Orthopaedics, the First Affiliated Hospital of HeBei North University, Zhangjiakou, 07500, China awuwu965@yahoo.com.cn, blh_teacher@163.com, clhg_doctor@163.com Keywords: CIR; ligustrazine; Hippocampus; hybridization in situ Abstract.
Materials Main materials.
The protocols were conducted in accordance with Guidance Suggestions for the Care and Use of Laboratory Animals, formulated by the Ministry of Science and Technology of China.
Modern Journal of Integrated Chinese Traditional and Western Medicine,2009,18(14):1598-9

An Systematic Modeling and Simulation Study on WIP Optimization in Semiconductor Assembly And Test Factory Yanting Ni, JingMin Li, Wei He, Jin Yao School of Manufacturing Science and Engineering, Sichuan University,China Keywords: Semiconductor Assembly and Test; Work in Process; Simulation; Throughput; Cycle Time Abstract.
Simulation model conceptual Design In this paper, WIP control essentially study two critical functions for production control and management: tracking WIP status in a defined time effectively and promptly controlling raw material flows into production floor within right time.
this step, can analyze single station WIP through the simulator and direct raw material release action, especially adapted for constrain station, to avoid the starvation and overbuild happened, to effective utilize the constrain station capacity with inventory control.
This research is sponsored by Science and Technology Bureau of Sichuan Province, grants No. 2009GZ0159.
References 1.Yeong-Dae Kim, Dong-Ho Lee, and Jung-Ug Kim, “A Simulation Study on Lot Release Control.Mask Scheduling, and Batch Scheduling in Semiconductor Wafer Fabrication Facilities”Journal of Manu/acturing Systems(1998) 2.

The Climate-adapted Design for the Hot-humid Region ——Case Study on the University Library in the Lingnan Region 1Fang Xiaoshan and 2Song Zhenyu 1School of Architecture, South China University of Technology , State Key Laboratory of Sub-tropical Architecture Science, Guangzhou，China 2Architecture Design and Research Institute of South China University of Technology, State Key Laboratory of Sub-tropical Architecture Science , Guangzhou, China E-mail: xshfang@scut.edu.cn, zhysong@scut.edu.cn Keywords- Hot-humid Climate; Lingnan Region; University Library; Climate-adapted Design, Case Study Abstract.
The fact means that the university libraries’ construction cost more raw materials and energy, and these university libraries need more energy for the air-conditioning system and artificial lighting system in future use.
Due to the current global energy crisis, energy-saving construction and conservation of materials and resources is particularly urgent, especially in the development and promotion of ecological construction technology.
Proceedings of the 1st International Conference on Building Energy an Environment, Dalian, China. pp.838-845 [2] LinXiande, August 2003, Green Building In Hot-humid Climate, First Copy, Zhans Publisher (Taiwan）, pp. 130, pp. 134, pp. 148 [3] TangGuohua, June 2005, The Humid-hot Climate in Lingnan Region and the Traditional Architecture, First Copy, Architecture Industry Publisher in China, pp. 4, pp. 10 [4] HanJihong, JiangYan, October 2005, The Example of the Ecological Office Building in Shanghai, First Copy, Architecture Industry Publisher in China, pp.8 [5] Songzhenyu, June 2006, The Ecology-library Design for the Hot-humid Climate in Lingnan Region, Master Degree Lecture in SCUT, pp.13- 33 [6] Zeng Zhi-hui; Lu Qi; Guo Peng-fei，December 2009，Measurement and Analysis of Thermal Environment in Foshan Donghuali Dwellings，Journal of Guangdong University of Technology，pp.70-74 Photo 1: University libraries at the Guangzhou Island Campus (Source: photos were taken by writers

Sohn1,c 1 Advanced Materials Processing and Analysis Center, Department of Mechanical, Materials and Aerospace Engineering, University of Central Florida, Orlando, Florida, 32816, U.S.A.
Acknowledgement Financial support from CAREER Award of National Science Foundation (DMR-0238356) is gratefully acknowledged.
Any opinion, findings and conclusions or recommendations expressed in this manuscript are those of the authors and do not necessarily reflect the view of the National Science Foundation.
Sohn: Journal of Phase Equilibria Vol. 30 (2009), p. 246

BISS: A Built-In SEU Sensor For Soft Error Mitigation Zhengfeng Huang1, a , Maoxiang Yi1 1School of Electronic Science and Applied Physics,Hefei University of Technology,Hefei, 230009,China aEmail: hanson_hfut@sina.com Keywords: Built-in SEU Sensor; Soft Errors; Single Event Upset; Meta-stability Abstract.
Acknowledgement Supported by the National Nature Science Foundation of China under Grant No.60876028 and the Key Project of Natural Science Foundation of the Anhui Higher Education Institutions Under Grant No.KJ2010A280 and Hefei University of Technology Research Funding under Grant No.2010HGXJ0071 and Hefei University of Technology Ph.D.Funding under Grant No.
Nicolaidis, “ Design for soft error mitigation,” IEEE Trans.Device and Materials Reliability, vol.5,no.3, 2005, pp.405-418 [8] N.
Nuclear Science, vol.29,no.6,1982, pp.2024-2031 [12] D.
Das, K.Shivashankar, et al, “A Power-Efficient 32 bit ARM Processor Using Timing-Error Detection and Correction for Transient-Error Tolerance and Adaptation to PVT Variation,” IEEE Journal of Solid State Circuits, vol.46,no.1,2011, pp.18-31

Zhao2,C 1 Hunan Provincial Key Laboratory of Health Maintenance for Mechanical Equipment, Hunan University of Science and Technology, Xiangtan, 411201, China 2Electrical and Mechanical College, Central South University, Changsha, china a jxxwgb@126.com, bangkekeer@126.com, c csuzxq@qq.com Keywords: strip deviation, chaos and fractal, fuzzy cluster, local prediction Abstract.
Acknowledgment Financial support from Aid program for Science and Technology Innovative Research Team in Higher Educational Institutions of Hunan Province, the CEEUSRO special plan of Hunan province (2010XK6066), National Natural Science Foundation of China (51175170), Industrial Cultivation Program of Scientific and Technological Achievements in Higher Educational Institutions of Hunan Province (10CY008), Natural Science Foundation of Hunan Province Key Project (09JJ8005), are gratefully acknowledged.
Kawałek.Journal of Materials Processing Technology, 2004, pp157-158

Geographical Concentration of Industries in China Chen Linlin1,2,3,a,Jin Fengjun1,3,b 1Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China; 2 University of Chinese Academy of Sciences, Beijing 100049, China; 3Key Laboratory of Regional Sustainable Development Modeling, Chinese Academy of Sciences, Beijing 100101, China achenjing52100@163.com, bjinfj@igsnrr.ac.cn Keywords: industries; geographical concentration; agglomeration Abstract.
tobacco 0.384756 0.425196 0.446561 0.013541 0.020453 0.030218 Manufacture of textile 0.346549 0.373882 0.384822 0.004759 0.006937 0.007627 Manufacture of textile wearing, hats and shoemaking 0.425801 0.430173 0.410656 0.007651 0.00726 0.006038 Manufacture of leather, fur, feather and its products 0.440736 0.453402 0.44351 0.018778 0.027812 0.033599 Processing of timbers, manufacture of wood, Bamboo, rattan, palm, and straw products 0.362801 0.364488 0.355077 0.009415 0.012229 0.015783 Manufacture of furniture 0.414161 0.433307 0.421792 0.006667 0.013123 0.011559 Manufacture of paper and paper products 0.33155 0.35359 0.351716 0.004308 0.0033 0.002531 Printing, reproduction of recording media 0.360058 0.404816 0.397014 0.00682 0.008172 0.005686 Manufacture of cultural, educational and sporting supplies 0.426076 0.45956 0.446129 0.026219 0.029116 0.02238 Processing of petroleum, coking, processing of nucleus fuel 0.433859 0.410535 0.395255 0.024558 0.017598 0.01641 Manufacture of chemical raw material
These industries are either raw material industries or capital and technology-intensive industries, their barriers to entry are higher and requirements of enterprise scale is large, and therefore demand a higher degree of market concentration.
Innovative Space: Industrial Cluster and Regional Development (Peking University Press, Beijing 2001) . ( In Chinese) [2] Mei Wen: Economic Research Journal Vol. 2 (2004), p. 84.( In Chinese) [3] Canfei He, Xiuzhen Xie: Acta Geographica Sinica Vol. 61 (2006), p. 212. ( In Chinese) [4] Zhijian Liu, Chunfeng Hou: Modern Business Trade Industry Vol. 20 (2008), p. 7. ( In Chinese) [5] Qi Liang: Statistical Research Vol.9 (2003), p. 21. ( In Chinese) [6] Canfei HE, Fenghua Pan and Lei Sun: Acta Geographica Sinica Vol. 62 (2006), p. 1253. ( In Chinese)

Effect of Dispersants Pre-adsorption and Grinding on Dispersion Performance of Kaolin Pigment Lihong Zhao1,2, Liu He1, Beihai He1* 1State Key Laboratory of Pulp and Paper Engineering, South China University of Technology, Guangzhou 510640, China 2Tianjin key Laboratory of pulp and paper, Tianjin University of Science and Technology, Tianjin 300457, China azhaolh@scut.edu.cn, b584094121@qq.com, cppebhhe@scut.edu.cn Keywords: Kaolin Pigment, Dispersion Capacity, Pre-adsorption, Grinding.
Experimental Materials.
Acknowledgments: The Project Supported by the Foundation (No. 201110) of Tianjin Key Laboratory of Pulp & Paper (Tianjin University of Science & Technology), P.
Romagnoli: Applied Clay Science Vol. 31 (2006), p. 156 [4] N.
Schwuger: Journal of Colloid and Interface Science Vol. 171 (1995), p. 224 [5] Zongqi Chen, Minguang Dai: Colloidal Chemistry (Higher Education Press, Beijing 1984)